生物对逆境环境的适应和抗逆分子育种

生物技术通报 ›› 2023, Vol. 39 ›› Issue (11): 1-5.

• 胁迫生物学和生物技术专刊（专刊主编：赵杨赵心清） • 下一篇

生物对逆境环境的适应和抗逆分子育种

赵杨¹, 赵心清²

1.中国科学院分子植物科学卓越创新中心上海植物逆境生物学研究中心，上海 200032
2.微生物代谢国家重点实验室上海交通大学生命科学技术学院，上海 200240

出版日期:2023-11-26 发布日期:2023-12-20
作者简介:赵杨，中国科学院分子植物科学卓越创新中心，上海植物逆境生物学研究中心研究员，国家特支计划青年拔尖人才获得者。主要从事植物渗透胁迫信号传导分子机理的研究，近年鉴定了部分渗透上游信号元件，初步解析了胁迫下根冠比和避盐性的机制，为作物抗逆稳产节水遗传改良提供了理论依据和基因资源。在Molecular Cell, Developmental Cell, Nature Plants, Current Biology, PNAS, Plant Cell, Cell Reports, Science Signaling, Cell Research等国际知名期刊发表论文40余篇。入选浦江人才、松江区领军人才等；获卫志明青年创新奖、先正达友好实验室奖学金等荣誉。论文总引用数5000余次。
赵心清，上海交通大学教授。主要研究方向为微生物代谢工程改造和高效生物转化，以及生物燃料和天然活性物质的生产，在酿酒酵母环境胁迫耐受性机理及高效菌株构建、里氏木霉纤维素酶合成调控以及微生物基因组挖掘等方面取得良好进展。入选教育部新世纪优秀人才，德国洪堡学者，获得日本生物工程学会颁发的亚洲生物技术青年奖等奖励。作为课题负责人承担科技部国家重点研发计划子课题、国家自然科学基金委面上及地区重点项目、国际合作研究项目以及多项企业委托的课题研究，在Metabolic Engineering, Biotechnology and Bioengineering, Biotechnology Advances 等多个期刊发表学术论文百余篇，申请及授权专利多项。

How Organisms Adapt to Stressful Environments and Molecular Breeding of Stress Tolerance

ZHAO Yang¹, ZHAO Xin-qing²

1. Shanghai Center for Plant Stress Biology, CAS Center for Excellence in Molecular Plant Sciences, Chinese Academy of Sciences, Shanghai 200032
2. State Key Laboratory for Microbial Metabolism, School of Life Sciences and Biotechnology, Shanghai 200240

Published:2023-11-26 Online:2023-12-20

摘要/Abstract

赵杨, 赵心清. 生物对逆境环境的适应和抗逆分子育种[J]. 生物技术通报, 2023, 39(11): 1-5.

ZHAO Yang, ZHAO Xin-qing. How Organisms Adapt to Stressful Environments and Molecular Breeding of Stress Tolerance[J]. Biotechnology Bulletin, 2023, 39(11): 1-5.

图/表 1

参考文献 32

[1]	张晓燕, 杨淑华, 丁杨林. 植物感知和传递低温信号的分子机制[J]. 生物技术通报, 2023, 39(11): 28-35.
	Zhang XY, Yang SH, Ding YL. Molecular mechanism of cold signal perception and transduction in plants[J]. Biotechnol Bull, 2023, 39(11): 28-35.
[2]	于波, 秦晓惠, 赵杨. 植物感应干旱信号的机制[J]. 生物技术通报, 2023, 39(11): 6-17.
	Yu B, Qin XH, Zhao Y. Mechanisms of plants sensing drought signals[J]. Biotechnol Bull, 2023, 39(11): 6-17.
[3]	汪明滔, 刘建伟, 赵春钊. 植物调控盐胁迫下细胞壁完整性的分子机制[J]. 生物技术通报, 2023, 39(11): 18-27.
	Wang MT, Liu JW, Zhao CZ. Molecular mechanisms of cell wall integrity in plants under salt stress[J]. Biotechnol Bull, 2023, 39(11): 18-27.
[4]	周恒, 谢彦杰. 植物氧化胁迫信号应答的研究进展[J]. 生物技术通报, 2023, 39(11): 36-43.
	Zhou H, Xie YJ. Recent progress in oxidative stress signaling and response in plants[J]. Biotechnol Bull, 2023, 39(11): 36-43.
[5]	张红红, 方晓峰. 相分离调控植物胁迫感知和应答的研究进展[J]. 生物技术通报, 2023, 39(11): 44-53.
	Zhang HH, Fang XF. Advances in the regulation of stress sensing and responses by phase separation in plants[J]. Biotechnol Bull, 2023, 39(11): 44-53.
[6]	许睿, 祝英方. 中介体复合物在植物非生物胁迫应答中的功能[J]. 生物技术通报, 2023, 39(11): 54-60.
	Xu R, Zhu YF. The key roles of mediator complex in plant responses to abiotic stress[J]. Biotechnol Bull, 2023, 39(11): 54-60.
[7]	陈广霞, 李秀杰, 蒋锡龙, 等. 植物小分子信号肽参与非生物逆境胁迫应答的研究进展[J]. 生物技术通报, 2023, 39(11): 61-73.
	Chen GX, Li XJ, Jiang XL, et al. Research progress in plant small signal peptides involved in abiotic stress response[J]. Biotechnol Bull, 2023, 39(11): 61-73.
[8]	孙雨桐, 刘德帅, 齐迅, 等. 茉莉酸调控植物生长发育和胁迫的研究进展[J]. 生物技术通报, 2023, 39(11): 99-109.
	Sun YT, Liu DS, Qi X, et al. Advances in jasmonic acid regulating plant growth and development and stress[J]. Biotechnol Bull, 2023, 39(11): 99-109.
[9]	韩芳英, 胡昕, 王楠楠, 等. DREBs响应植物非生物逆境胁迫研究进展[J]. 生物技术通报, 2023, 39(11): 86-98.
	Han FY, Hu X, Wang NN, et al. Research progress in response of DREBs to abiotic stress in plant[J]. Biotechnol Bull, 2023, 39(11): 86-98.
[10]	马秋雨, 袁芳. 植物盐腺泌盐及发育研究进展[J]. 生物技术通报, 2023, 39(11): 74-85.
	Ma QY, Yuan F. Research progress in salt gland and salt gland secretion in plants[J]. Biotechnol Bull, 2023, 39(11): 74-85.
[11]	蒋铭轩, 李康, 罗亮, 等. 植物表达外源蛋白研究进展及展望[J]. 生物技术通报, 2023, 39(11): 110-122.
	Jiang MX, Li K, Luo L, et al. Advances on the expressions of foreign proteins in plants[J]. Biotechnol Bull, 2023, 39(11): 110-122.
[12]	邢媛, 宋健, 李俊怡, 等. 谷子AP基因家族鉴定及其对非生物胁迫的响应分析[J]. 生物技术通报, 2023, 39(11): 238-251.
	Xing Y, Song J, Li JY, et al. Identification of AP gene family and its response to abiotic stress in Setaria italica[J]. Biotechnol Bull, 2023, 39(11): 238-251.
[13]	葛雯冬, 王腾辉, 马天意, 等. 结球甘蓝PRX基因家族全基因组鉴定与逆境条件下的表达分析[J]. 生物技术通报, 2023, 39(11): 252-260.
	Ge WD, Wang TH, Ma TY, et al. Genome-wide identification of the PRX gene family in Cabbage(Brassica oleracea L. var. capitata)and expression analysis under abiotic stress[J]. Biotechnol Bull, 2023, 39(11): 252-260.
[14]	杨旭妍, 赵爽, 马天意, 等. 3个甘蓝WRKY基因的克隆及其对非生物胁迫的表达[J]. 生物技术通报, 2023, 39(11): 261-269.
	Yang XY, Zhao S, Ma TY, et al. Cloning of three Cabbage WRKY genes and their expressions in response to abiotic stresses[J]. Biotechnol Bull, 2023, 39(11): 261-269.
[15]	陈楚怡, 杨小梅, 陈胜艳, 等. ABA和干旱胁迫下菊花脑ZF-HD基因家族的表达分析[J]. 生物技术通报, 2023, 39(11): 270-282.
	Chen CY, Yang XM, Chen SY, et al. Expression analysis of the ZF-HD gene family in Chrysanthemum nankingense under drought and ABA treatment[J]. Biotechnol Bull, 2023, 39(11): 270-282.
[16]	冯策婷, 江律, 刘鑫颖, 等. 单叶蔷薇NAC基因家族鉴定及干旱胁迫响应分析[J]. 生物技术通报, 2023, 39(11): 283-296.
	Feng CT, Jiang L, Liu XY, et al. Genome-wide identification and expression analysis of the NAC gene family in Rosa persica under drought stress[J]. Biotechnol Bull, 2023, 39(11): 283-296.
[17]	毛可欣, 王海荣, 安淼, 等. 中华猕猴桃GRAS基因家族鉴定及低温胁迫表达分析[J]. 生物技术通报, 2023, 39(11): 297-307.
	Mao KX, Wang HR, An M, et al. Identification of GRAS Gene family and expression analysis under low temperature stress in Actinidia chinensis[J]. Biotechnol Bull, 2023, 39(11): 297-307.
[18]	张玉娟, 黎冬华, 宫慧慧, 等. 芝麻NAC转录因子基因SiNAC77的克隆及耐盐功能分析[J]. 生物技术通报, 2023, 39(11): 308-317.
	Zhang YJ, Li DH, Gong HH, et al. Cloning and salt-tolerance analysis of NAC transcription factor SiNAC77 from Sesamum indicum L.[J]. Biotechnol Bull, 2023, 39(11): 308-317.
[19]	尤垂淮, 谢津津, 张婷, 等. 钩吻脂氧合酶GeLOX1的克隆与功能分析[J]. 生物技术通报, 2023, 39(11): 318-327.
	You CH, Xie JJ, Zhang T, et al. Cloning and functional analysis of the lipoxygenase gene GeLOX1 in Gelsmium elegans[J]. Biotechnol Bull, 2023, 39(11): 318-327.
[20]	鄢梦雨, 韦晓薇, 曹婧, 兰海燕. 异子蓬SabHLH169基因的克隆及抗旱功能分析[J]. 生物技术通报, 2023, 39(11): 328-339.
	Yan MY, Wei XW, Cao J, Lan HY. Cloning and analysis of basic helix-loop-helix(bHLH)transcription factor gene SabHLH169 in response to drought stress in Suaeda aralocaspica[J]. Biotechnol Bull, 2023, 39(11): 328-339.
[21]	胡锦超, 沈文琦, 徐超业, 等. 微生物酸胁迫耐受性能强化的研究进展[J]. 生物技术通报, 2023, 39(11): 137-149.
	Hu JC, Shen WQ, Xu CY, et al. Research advances in the enhancement of microbial tolerance to acid stress[J]. Biotechnol Bull, 2023, 39(11): 137-149.
[22]	李昕悦, 周明海, 樊亚超, 等. 基于转运蛋白工程提升微生物菌株耐受性和生物制造效率的研究进展[J]. 生物技术通报, 2023, 39(11): 123-136.
	Li XY, Zhou MH, Fan YC, et al. Research progress in the improvement of microbial strain tolerance and efficiency of biological manufacturing based on transporter engineering[J]. Biotechnol Bull, 2023, 39(11): 123-136.
[23]	晏雄鹰, 王振, 王霞, 杨世辉. 微生物硫代谢与抗逆性[J]. 生物技术通报, 2023, 39(11): 150-167.
	Yan XY, Wang Z, Wang X, Yang SH. Microbial sulfur metabolism and stress resistance[J]. Biotechnol Bull, 2023, 39(11): 150-167.
[24]	祝瑛萱, 李克景, 何敏, 郑道琼. 酵母模型揭示胁迫因子驱动基因组变异的研究进展[J]. 生物技术通报, 2023, 39(11): 191-204.
	Zhu YX, Li KJ, He M, Zheng DQ. Research progress in the exploring genomic variations driven by stress factors using the yeast model[J]. Biotechnol Bull, 2023, 39(11): 191-204.
[25]	王晨宇, 周楚源, 何堤, 等. 多聚磷酸盐在微生物抗环境胁迫中的作用及机制[J]. 生物技术通报, 2023, 39(11): 168-181.
	Wang CY, Zhou CY, He D, et al. The role and mechanisms of polyphosphate in microbial response to environmental stresses[J]. Biotechnol Bull, 2023, 39(11): 168-181.
[26]	唐瑞琪, 赵心清, 朱笃, 汪涯. 大肠杆菌对木质纤维素水解液抑制物的胁迫耐受性[J]. 生物技术通报, 2023, 39(11): 205-216.
	Tang RQ, Zhao XQ, Zhu D, Wang Y. Stress tolerance of Escherichia coli to inhibitors in lignocellulosic hydrolysates[J]. Biotechnol Bull, 2023, 39(11): 205-216.
[27]	赵佳, 赵飞燕, 沈馨, 等. 乳酸菌抗氧化活性及其应用研究进展[J]. 生物技术通报, 2023, 39(11): 182-190.
	Zhao J, Zhao FY, Shen X, et al. Advances in antioxidant activity of lactic acid bacteria and applications[J]. Biotechnol Bull, 2023, 39(11): 182-190.
[28]	刘媛媛, 魏传正, 谢永波, 等. 金针菇II类过氧化物酶基因在子实体发育与胁迫应答过程的表达特征[J]. 生物技术通报, 2023, 39(11): 340-349.
	Liu YY, Wei CZ, Xie YB, et al. Characteristics of class II peroxidase gene expression during fruiting body development and stress response in Flammulina filiformis[J]. Biotechnol Bull, 2023, 39(11): 340-349.
[29]	吴柏增, 何琪, 姚方杰, 赵梦然. 糙皮侧耳乳酸脱氢酶鉴定及其菌丝高温胁迫下表达特征分析[J]. 生物技术通报, 2023, 39(11): 350-359.
	Wu BZ, He Q, Yao FJ, Zhao MR. Identification and heat stress expression analysis of lactate dehydrogenase in Pleurotus ostreatus Mycelium[J]. Biotechnol Bull, 2023, 39(11): 350-359.
[30]	王文韬, 冯颀, 刘晨光, 等. 氧化还原敏感型基因元件增强酵母木质纤维素水解液抑制物胁迫耐受性[J]. 生物技术通报, 2023, 39(11): 360-372.
	Wang WT, Feng Q, Liu CG, et al. Redox-sensitive genetic parts improve the tolerance of yeast to lignocellulosic hydrolysate inhibitors[J]. Biotechnol Bull, 2023, 39(11): 360-372.
[31]	孙言秋, 谢采芸, 汤岳琴. 耐高温酿酒酵母的构建与高温耐受机制解析[J]. 生物技术通报, 2023, 39(11): 226-237.
	Sun YQ, Xie CY, Tang YQ. Construction and mechanism analysis of High-temperature resistant Saccharomyces cerevisiae[J]. Biotechnol Bull, 2023, 39(11): 226-237.
[32]	车永梅, 刘广超, 郭艳苹. 等一种耐盐复合菌剂的制备和促生作用研究[J]. 生物技术通报, 2023, 39(11): 217-225.
	Che YM, Liu GC, Guo YP, et al. Preparation of compound halotolerant bioinoculant and analysis of its growth-promoting effect[J]. Biotechnol Bull, 2023, 39(11): 217-225.

生物对逆境环境的适应和抗逆分子育种

How Organisms Adapt to Stressful Environments and Molecular Breeding of Stress Tolerance

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